William T. Sha
Novel Porous Media Formulation for Multiphase Flow Conservation Equations
William T. Sha
Novel Porous Media Formulation for Multiphase Flow Conservation Equations
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This book is designed to help engineers and scientists solve real-world multiphase flow problems.
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This book is designed to help engineers and scientists solve real-world multiphase flow problems.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 260
- Erscheinungstermin: 15. August 2013
- Englisch
- Abmessung: 229mm x 152mm x 14mm
- Gewicht: 382g
- ISBN-13: 9781107630178
- ISBN-10: 1107630177
- Artikelnr.: 40191451
- Verlag: Cambridge University Press
- Seitenzahl: 260
- Erscheinungstermin: 15. August 2013
- Englisch
- Abmessung: 229mm x 152mm x 14mm
- Gewicht: 382g
- ISBN-13: 9781107630178
- ISBN-10: 1107630177
- Artikelnr.: 40191451
Dr William T. Sha is formerly a senior scientist at Argonne National Laboratory and the former Director of the Analytic Thermal Hydraulic Research Program and the Multiphase Flow Research Institute. He has published over 290 papers, primarily in the field of thermal hydraulics. He is the recipient of many awards, including the 2005 Technical Achievement Award from the Thermal Hydraulic Division (THD) of the American Nuclear Society (ANS), the 2006 Glenn T. Seaborg Medal, the 2007 Samuel Untermyer II Medal and the 2008 Reactor Technology Award, all from the ANS.
1. Introduction; 2. Averaging relations; 3. Phasic conservation equations and interfacial balance equations; 4. Local
volume
averaged conservation equations and interfacial balance equations; 5. Time averaging of local
volume
averaged conservation equations or time
volume
averaged conservation equations and interfacial balance equations; 6. Time averaging in relation to local volume averaging and time
volume averaging versus volume
time averaging; 7. COMMIX code capable of computing detailed micro
flow fields with fine computational mesh and high
order differencing scheme; 8. Discussion and concluding remarks.
volume
averaged conservation equations and interfacial balance equations; 5. Time averaging of local
volume
averaged conservation equations or time
volume
averaged conservation equations and interfacial balance equations; 6. Time averaging in relation to local volume averaging and time
volume averaging versus volume
time averaging; 7. COMMIX code capable of computing detailed micro
flow fields with fine computational mesh and high
order differencing scheme; 8. Discussion and concluding remarks.
1. Introduction; 2. Averaging relations; 3. Phasic conservation equations and interfacial balance equations; 4. Local
volume
averaged conservation equations and interfacial balance equations; 5. Time averaging of local
volume
averaged conservation equations or time
volume
averaged conservation equations and interfacial balance equations; 6. Time averaging in relation to local volume averaging and time
volume averaging versus volume
time averaging; 7. COMMIX code capable of computing detailed micro
flow fields with fine computational mesh and high
order differencing scheme; 8. Discussion and concluding remarks.
volume
averaged conservation equations and interfacial balance equations; 5. Time averaging of local
volume
averaged conservation equations or time
volume
averaged conservation equations and interfacial balance equations; 6. Time averaging in relation to local volume averaging and time
volume averaging versus volume
time averaging; 7. COMMIX code capable of computing detailed micro
flow fields with fine computational mesh and high
order differencing scheme; 8. Discussion and concluding remarks.